English

Rigidity theory for $C^*$-dynamical systems and the "Pedersen Rigidity Problem"

Operator Algebras 2018-01-03 v3

Abstract

Let GG be a locally compact abelian group. By modifying a theorem of Pedersen, it follows that actions of GG on CC^*-algebras AA and BB are outer conjugate if and only if there is an isomorphism of the crossed products that is equivariant for the dual actions and preserves the images of AA and BB in the multiplier algebras of the crossed products. The rigidity problem discussed in this paper deals with the necessity of the last condition concerning the images of AA and BB. There is an alternative formulation of the problem: an action of the dual group G^\hat G together with a suitably equivariant unitary homomorphism of GG give rise to a generalized fixed-point algebra via Landstad's theorem, and a problem related to the above is to produce an action of G^\hat G and two such equivariant unitary homomorphisms of GG that give distinct generalized fixed-point algebras. We present several situations where the condition on the images of AA and BB is redundant, and where having distinct generalized fixed-point algebras is impossible. For example, if GG is discrete, this will be the case for all actions of GG.

Keywords

Cite

@article{arxiv.1612.04088,
  title  = {Rigidity theory for $C^*$-dynamical systems and the "Pedersen Rigidity Problem"},
  author = {S. Kaliszewski and Tron Omland and John Quigg},
  journal= {arXiv preprint arXiv:1612.04088},
  year   = {2018}
}

Comments

minor revision

R2 v1 2026-06-22T17:22:00.272Z